Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P04141 (granulocyte-macrophage colony-stimulating factor)
 6,790 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Granulocyte-macrophage colony-stimulating factor (GM-CSF) and interleukin-3 (IL-3) are recognized as enhancers, but not as inducers, of histamine release from normal human basophils. However, when extracellular Na+ is removed IL-3 acquires the capacity to induce histamine release. The aim of this study was to evaluate whether GM-CSF can induce basophil histamine release using the same pathway of IL-3. Leucocyte suspensions from normal human subjects were stimulated with GM-CSF, IL-3 and anti-IgE, and histamine release was evaluated by an automated fluorometric method. In a physiological medium, GM-CSF (10 ng/ml) and IL-3 (10 ng/ml) did not provoke histamine release, in spite of an efficient response to anti-IgE (10 micrograms/ml). However, when extracellular Na+ was substituted iso-osmotically with N-methyl-d-glucamine+ or with choline+, GM-CSF and IL-3 were able to trigger histamine release from either mixed leucocyte suspensions or purified human basophils. The effect of GM-CSF on basophil histamine release was dose dependent, with optimal release at a dose of 1 ng/ml after incubation at 37 degrees for 60-120 min. The kinetics of IL-3-induced histamine release were similar, whereas anti-IgE-induced histamine release was more rapid, being almost maximal after incubation for 30 min. A good correlation was found between GM-CSF-induced and IL-3-induced histamine release; furthermore, the combined effects of the two cytokines were less than additive, suggesting that they share the same pathways leading to histamine release. When extracellular Na+ concentration was increased from 0 to 140 mm, histamine release induced by GM-CSF, IL-3 and anti-IgE was reduced progressively. In contrast, histamine release induced by these stimuli was upregulated when the concentration of extracellular Ca2+ was increased. These results provide indirect evidence that GM-CSF and IL-3 can induce basophil histamine release by a common pathway that is downregulated by Na+.
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PMID:Granulocyte-macrophage colony-stimulating factor and interleukin-3 cause basophil histamine release by a common pathway: downregulation by sodium. 1023 91

When neutrophils undergo apoptosis, they lose expression of the surface receptor CD16 (FcgammaRIIIb). Thus levels of surface CD16 are good indicators of apoptotic or non-apoptotic neutrophils. Shedding of CD16 occurs via the activity of a metalloproteinase that cleaves the receptor from the plasma membrane. Granulocyte-macrophage colony-stimulating factor (GM-CSF) and sodium butyrate both stimulate neutrophil gene expression, protect these cells from apoptosis, and maintain expression of surface CD16. In this report we have investigated whether these agents maintain surface expression of CD16 via (1) decreased shedding (2) increased mobilization of the internal pool of pre-formed CD16, or (3) via de novo biosynthesis of new receptor molecules. Although GM-CSF and sodium butyrate both preserved surface expression of CD16, GM-CSF actually accelerated the rate of shedding of this receptor. Maintenance of surface levels was achieved by substantial mobilization of the internal pool of CD16. Sodium butyrate, on the other hand, maintained surface expression without extensive store depletion via a mechanism that appeared to involve a decreased rate of shedding. In these experiments we could find no evidence for de novo biosynthesis of CD16 stimulated by either GM-CSF or sodium butyrate. These experiments indicate that multiple mechanisms exist for the maintenance of surface CD16 during rescue of neutrophils from apoptosis by different agents.
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PMID:Regulation of neutrophil FcgammaRIIIb (CD16) surface expression following delayed apoptosis in response to GM-CSF and sodium butyrate. 1038 Sep 13

Macrophage-derived cytokines and chemokines are involved at multiple steps of immune and inflammatory responses, and the transcriptional factor NF-kappaB appears to play a pivotal role in their coordinated upregulation. The anti-inflammatory agents salicylates have been proposed to act in part by inhibiting NF-kappaB. We have therefore studied the effects of sodium salicylate on lipopolysaccharide (LPS)-induced kappaB-binding activity and on cytokine and chemokine gene expression in the RAW264.7 murine macrophage cell line and compared them to those of an established NF-kappaB inhibitor, pyrrolidine dithiocarbamate (PDTC). PDTC (100 microM) completely abrogated LPS-induced kappaB-binding activity and also profoundly inhibited the induction of interleukin 1alpha (IL-1alpha), IL-1beta, IL-6, IL-10, granulocyte colony-stimulating factor, granulocyte-macrophage colony-stimulating factor, and MCP-1 and, to a lesser extent, leukemia inhibitory factor, RANTES, and IL-1Ra. In contrast, sodium salicylate (15 to 20 mM) had no effect on NF-kappaB activation but, nevertheless, suppressed several LPS-induced cytokine and chemokine genes to a degree similar to that obtained with PDTC. However, compared to PDTC, sodium salicylate caused significantly less inhibition of IL-1Ra and IL-10 gene expression after LPS stimulation. Neither LPS-induced MIP-1alpha, MIP-1beta, nor MIP-2 was significantly affected by PDTC or sodium salicylate, demonstrating that NF-kappaB is dispensable for the transcriptional regulation of these genes by LPS. In summary, these results suggest that both NF-kappaB-dependent and NF-kappaB-independent pathways are necessary for the induction by LPS of a complex cytokine and chemokine response. In the RAW264.7 macrophage cell line, suprapharmacological concentrations of sodium salicylate exert a potent inhibitory effect on LPS-induced cytokine gene induction but appear to accomplish this by interfering with NF-kappaB-independent pathways of activation.
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PMID:Inhibition of cytokine gene expression by sodium salicylate in a macrophage cell line through an NF-kappaB-independent mechanism. 1039 64

Mechanisms underlying fetal hemoglobin (HbF) reactivation in adult life have not been elucidated; particularly, the role of growth factors (GFs) is controversial. Interestingly, histone deacetylase (HD) inhibitors (sodium butyrate, NaB, trichostatin A, TSA) reactivate HbF. We developed a novel model system to investigate HbF reactivation: (1) single hematopoietic progenitor cells (HPCs) were seeded in serum-free unilineage erythroid culture; (2) the 4 daughter cells (erythroid burst-forming units, [BFU-Es]), endowed with equivalent proliferation/differentiation and HbF synthesis potential, were seeded in 4 unicellular erythroid cultures differentially treated with graded dosages of GFs and/or HD inhibitors; and (3) HbF levels were evaluated in terminal erythroblasts by assay of F cells and gamma-globin content (control levels, 2.4% and 1.8%, respectively, were close to physiologic values). HbF was moderately enhanced by interleukin-3 (IL-3) and granulocyte-macrophage colony-stimulating factor treatment (up to 5%-8% gamma-globin content), while sharply reactivated in a dose-dependent fashion by c-kit ligand (KL) and NaB (20%-23%). The stimulatory effects of KL on HbF production and erythroid cell proliferation were strictly correlated. A striking increase of HbF was induced by combined addition of KL and NaB or TSA (40%-43%). This positive interaction is seemingly mediated via different mechanisms: NaB and TSA may modify the chromatin structure of the beta-globin gene cluster; KL may activate the gamma-globin promoter via up-modulation of tal-1 and possibly FLKF transcription factors. These studies indicate that KL plays a key role in HbF reactivation in adult life. Furthermore, combined KL and NaB administration may be considered for sickle cell anemia and beta-thalassemia therapy.
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PMID:Hemoglobin switching in unicellular erythroid culture of sibling erythroid burst-forming units: kit ligand induces a dose-dependent fetal hemoglobin reactivation potentiated by sodium butyrate. 1082 43

Dendritic cells (DCs) have been identified as effective antigen-presenting cells (APCs). We demonstrate that extracellular matrix (ECM), hyaluronic acid (HA) and chondroitin sulphate A (CSA), in the presence of granulocyte-macrophage colony-stimulating factor (GM-CSF), can rapidly promote the differentiation of monocyte-derived immature DCs, as characterized by the remarkable upregulation of human leucocyte antigen (HLA-DR), CD40, CD54, CD80 and CD86 expression to levels higher than those in the DCs generated by culturing with GM-CSF and interleukin (IL)-4 for 7 days and aggregation of the cells within 48 h. The upregulation of expression of HLA-DR, CD40, CD54, CD80 and CD86 was dose-dependent. Further studies showed that HA and CSA were able to augment nuclear factor (NF)-kappaB activity, as determined by gel mobility shift assay and promote protein phosphorylation. Inhibition of NF-kappaB by pyrolidine dithiocarbamate and sodium salicylate, and serine-threonine and tyrosine kinase by starosporine as well as phosphatidylinositide-3-kinase (PI-3-K) by wortmannin could prevent the effects of HA and CSA on the expression of HLA-DR, CD40, CD80 and CD86 in various degrees. Thus, our data demonstrate that HA or CSA can effectively and rapidly promote the differentiation of immature DC, suggesting that HA and CSA may possess a potential capacity in regulating immune responses.
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PMID:Hyaluronic acid and chondroitin sulphate A rapidly promote differentiation of immature DC with upregulation of costimulatory and antigen-presenting molecules, and enhancement of NF-kappaB and protein kinase activity. 1184 87

Allergen-induced emigration and maturation of dendritic cells (DC) are pivotal steps in sparking off allergic contact dermatitis. In vitro models, reflecting these steps, may provide tools for assessment of sensitizing capacities of putative contact allergens. Here, we evaluated the applicability of such models for a panel of methacrylate congeners, the sensitizing properties of which were established previously in clinical and experimental animal studies. First, using interleukin-4 (IL-4)/granulocyte-macrophage colony-stimulating factor (GM-CSF)-induced, blood monocyte-derived DC, hapten-induced up-regulation of maturation/ activation markers, including CD80, CD83, CD86, chemokine receptors CXCR4 and CCR5, as well as the drug resistance related molecules P-glycoprotein (Pgp) and lung resistance protein (LRP), were monitored by flow cytometry. Of note, whereas CD86 and CXCR4 were most sensitive in discriminating between the contact sensitizers and irritants included in the panel, i.e. sodium dodecyl sulphate (SDS) and croton oil (CO), assessment of CD83 and LRP expression reflected the relatively lower sensitizing capacity of methyl methacrylate. Second, using ex vivo skin explant cultures, allergen-induced LC migration from epidermal to basal membranous and dermal skin structures was most reliably monitored by CDla, as compared with Pgp, LRP, HLA-DR or CD54 staining. The extent of CD1a+ LC migration was found to closely correlate with the sensitizing capacities of the panel of test compounds. These results support the view that both in vitro models can provide valuable data on contact sensitizing properties, and add chemokine receptors and drug resistance related molecules to the list of DC membrane markers revealing allergenic signaling.
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PMID:Comparison of two in vitro dendritic cell maturation models for screening contact sensitizers using a panel of methacrylates. 1470 10

The aim of this study was to determine the effects of mouse granulocyte-macrophage colony-stimulating factor (mGM-CSF) on development of porcine parthenotes and nuclear transferred embryos, and on their expression of implantation-related genes. In the presence of bovine serum albumin, mGM-CSF did not increase the percentage of oocytes that developed to the blastocyst stage and at day 7 did not increase cell numbers of embryos. Addition of 2 ng/ml GM-CSF to protein-free culture medium significantly increased the compaction and blastocoel formation of 1- to 2-cell parthenotes developing in vitro. However, total cell numbers were not increased when they were cultured in the presence of GM-CSF. Semi-quantitative reverse transcriptase polymerase chain reaction revealed that mGM-CSF enhances mRNA expression of the leukemia inhibitory factor receptor, but does not influence interleukin-6 or sodium/glucose co-transporter protein gene expression in blastocyst stage parthenotes. These results suggest that mGM-CSF may enhance viability of porcine embryos developing in vitro in a defined culture medium.
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PMID:Mouse granulocyte-macrophage colony-stimulating factor enhances viability of porcine embryos in defined culture conditions. 1530 96

Divergent life or death responses of a cell can be controlled by a single cytokine (tumor necrosis factor alpha, TNF) via the signaling pathways that respond to activation of its two receptors (TNFR1 and TNFR2). Here, we show that the choice of life or death can be controlled by manipulation of TNFR signals. In human erythroleukemia patient myeloid progenitor stem cells (TF-1) as well as chronic myelogenous leukemia cells (K562), granulocyte-macrophage colony-stimulating factor primes cells for apoptosis. These death-responsive cells show prolonged TNF stimulation of c-Jun N-terminal kinase and p38 mitogen-activated protein kinase, but no NF-kappaB transcriptional activity as a consequence of receptor-interacting protein degradation by caspases. Conversely, cells of a proliferative phenotype display antiapoptotic NF-kappaB responses that antagonize c-Jun N-terminal kinase and p38 mitogen-activated protein kinase stress kinase effects. These proliferative effects of TNF are apparently due to enhanced basal expression of the caspase-8/FLICE-inhibitory protein FLIP. Manipulation of the NF-kappaB, c-Jun N-terminal kinase, or p38 mitogen-activated protein kinase signals switches leukemia cells from a proliferative to an apoptotic phenotype; consequently, these highly proliferative cells die rapidly. In addition, sodium salicylate mimics the death phenotype signals and causes selective destruction of leukemia cells. These findings reveal the signaling mechanisms underlying the phenomenon of human leukemia cell life/death switching. Additionally, through knowledge of the signals that control TNF life/death switching, we have identified several therapeutic targets for selectively killing these cells.
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PMID:Switching leukemia cell phenotype between life and death. 1532 18

The cysteinyl leukotrienes (cysLTs) are potent lipid mediators in allergic disease, acting through a receptor (cysLT1-R) which can be targeted in rhinitis and asthma. We investigated the effects of cysLT1-R antagonism in experimental allergic rhinitis, focusing on bone marrow eosinophil progenitor responses. BALB/c mice were sensitized, then given daily intranasal ovalbumin for 2 weeks, with montelukast sodium (5 mg/kg or 2.5 mg/kg) or placebo by gavage. Bone marrow eosinophil/basophil colonies were enumerated, and colony cells were morphologically assessed as indices of eosinophil differentiation and maturation. Montelukast treatment resulted in a significant decrease of eosinophils in the nasal mucosa, and in either bone marrow interleukin (IL)-5-, but not IL-3-, or granulocyte-macrophage colony-stimulating factor-responsive eosinophil/basophil colony-forming units, and IL-5-stimulated eosinophil maturation. These results indicate that cysLT1-R antagonism in vivo limits both IL-5-responsive eosinophilopoiesis, acting at several stages of eosinophil differentiation and maturation. The anti-allergic effects of cysLT1-R antagonists are consistent with the concept that cysLTs and IL-5 act together in the recruitment of eosinophils and eosinophil progenitors from the marrow during upper airway allergic inflammation.
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PMID:Effects of a cysteinyl leukotriene receptor antagonist on eosinophil recruitment in experimental allergic rhinitis. 1537 85

Colony-stimulating factors (CSFs)-induced increased hematopoietic activity is known to occur in various microbial diseases; however, not much is known during tuberculosis (TB). We investigated the CSF-inducing capability of a Mycobacterium tuberculosis H37Rv component. Swiss mice intravenously injected with purified 30-kDa secretory protein of M. tuberculosis H37Rv (Mtb30; 0.1-10 mg/kg) showed enhanced levels of serum CSFs; maximum response (142 +/- 16 colonies) occurred at 1 mg/kg. In vitro, Mtb30 (1-50 mug/mL) induced mouse peritoneal macrophages (PMs) to elaborate CSFs in the conditioned medium (CM); 25 mug/mL appeared optimal (97 +/- 11 colonies). Both in vivo and in vitro, peak CSF production occurred 24 h after stimulation which levelled-off to background levels by 72 h. Rabbit anti-Mtb30 antibody significantly (p<0.05) reduced CSF production by both Mtb30-stimulated and M. tuberculosis-infected PMs, in vitro. The induced CSFs, both in the serum and CM, appeared to be functionally similar, as they supported the formation of granulocyte (G), monocyte (M) and GM colonies, in similar proportions; the GM colonies were maximum (>79 %). Neutralizing (100%) rabbit anti-mouse interleukin-1 (IL-1) polyclonal antibody did not affect the Mtb30-induced CSF production, indicating it to be IL-1-independent; whereas, CSF production was partly dependent on tumour necrosis factor-alpha (TNF-alpha), as goat anti-mouse TNF-alpha immunoglobulin G only partly inhibited it. Mtb30-induced PM production of CSFs was de novo as it was completely blocked by cycloheximide (50 mug/mL). The CSF-inducing capability of Mtb30 appeared to be proteinaceous in nature as it was heat (70 degrees C; 1 h)-labile, was destroyed by proteases (pronase E and trypsin) and was unaffected by sodium periodate treatment. Further, compared to the controls, Mtb30 induced significantly (p<0.05) high levels of immunoreactive GM-CSF (9+/-1 and 7.5+/-0.8 ng/mL) and M-CSF (4.3+/-0.5 and 3.9+/-0.4 ng/mL) in serum and CM, respectively; G-CSF levels did not increase significantly (p>0.05). Mtb30-treated mice showed a maximum of 2.23- and 2.36-fold increase, in the splenic and femur colony forming unit-GM counts, respectively, as compared to the controls. This is the first report which demonstrates Mtb30-induced production of CSFs that is up-regulated both posttranscriptionally and functionally, and thus adds to our understanding of the molecular pathogenetic mechanisms of TB.
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PMID:Induction of colony-stimulating factors by a 30-kDa secretory protein of Mycobacterium tuberculosis H37Rv. 1562 42


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